 |
|
Process can cut the cost of making cellulosic biofuels
January 23, 2009EAST LANSING, Mich. - A patented Michigan State University process to pretreat corn-crop waste before conversion into ethanol means extra nutrients don't have to be added, cutting the cost of making biofuels from cellulose.
The AFEX (ammonia fiber expansion) pretreatment process, developed by Bruce Dale, University Distinguished Professor of chemical engineering and materials science, uses ammonia to make the breakdown of cellulose and hemicellulose in plants 75 percent more efficient than when conventional enzymes alone are used. Cellulose in plants must be broken down into fermentable sugars before they can be turned into biofuel.
"Doctoral student Ming Lau and I have shown that it's possible to use AFEX to pretreat corn stover (cobs, stalks and leaves) and then hydrolyze and ferment it to commercially relevant levels of ethanol without adding nutrients to the stover," Dale said. "It's always been assumed that agricultural residues such as corn stover didn't have enough nutrients to support fermentation. We have shown this isn't so."
"The research also shows that the chemical compounds created when the stover goes through the AFEX process can improve the overall fermentation process," Lau added. "This is at odds with the general perception that these compounds are detrimental and should be removed."
The research is published in the current issue of the Proceedings of the National Academy of Sciences.
Currently, pretreating cellulose with acid is a common way to break the material down into fermentable sugars. But after acid pretreatment, the resulting material must be washed and detoxified. That removes nutrients, leading to the mistaken idea that crop waste lacks the necessary nutrients, Dale said.
Cellulosic material pretreated with the AFEX process doesn't have to be washed or detoxified, allowing ethanol to be created from cellulose without added nutrients or other steps.
"Washing, detoxifying and adding nutrients back into the pretreated cellulose are three separate steps," Dale said. "Each step is expensive and adds to the cost of the biofuel. Breaking down cellulose into fermentable sugars cost effectively has been a major issue slowing cellulosic ethanol production. Using AFEX as the pretreatment process can dramatically reduce the cost of making biofuels from cellulose."
The next step could be a pilot plant, Dale said, perhaps at MBI International. MBI, a subsidiary of the MSU Foundation, partners with universities and companies to commercialize technology.
"There are several companies - including the Mascoma Corp., which plans to open one of the nation's first cellulosic ethanol plants here in Michigan - that may be interested in using this technology," Dale said. "We are working to make the AFEX technology fit these companies' needs."
Michigan State University
"The research also shows that the chemical compounds created when the stover goes through the AFEX process can improve the overall fermentation process," Lau added. "This is at odds with the general perception that these compounds are detrimental and should be removed."
The research is published in the current issue of the Proceedings of the National Academy of Sciences.
Currently, pretreating cellulose with acid is a common way to break the material down into fermentable sugars. But after acid pretreatment, the resulting material must be washed and detoxified. That removes nutrients, leading to the mistaken idea that crop waste lacks the necessary nutrients, Dale said.
Cellulosic material pretreated with the AFEX process doesn't have to be washed or detoxified, allowing ethanol to be created from cellulose without added nutrients or other steps.
"Washing, detoxifying and adding nutrients back into the pretreated cellulose are three separate steps," Dale said. "Each step is expensive and adds to the cost of the biofuel. Breaking down cellulose into fermentable sugars cost effectively has been a major issue slowing cellulosic ethanol production. Using AFEX as the pretreatment process can dramatically reduce the cost of making biofuels from cellulose."
The next step could be a pilot plant, Dale said, perhaps at MBI International. MBI, a subsidiary of the MSU Foundation, partners with universities and companies to commercialize technology.
"There are several companies - including the Mascoma Corp., which plans to open one of the nation's first cellulosic ethanol plants here in Michigan - that may be interested in using this technology," Dale said. "We are working to make the AFEX technology fit these companies' needs."
Michigan State University
Cellulosic Biofuels Current Events and Cellulosic Biofuels News RSSMiscounting bioenergy benefits may increase greenhouse gas release
A fixable error in the way carbon is counted in current U.S. climate legislation and in the Kyoto Protocol could undermine efforts to reduce greenhouse gas emissions by using biofuels, says a premier group of national environmental and land use scientists.
GEN reports on alternative feedstocks for ethanol production
Scientists say they are forging ahead in developing replacements for petrochemical fuels that will be cost-competitive and renewable while having a minimal impact on the environment, reports Genetic Engineering & Biotechnology News (GEN).
Biofuels, like politics, are local
Field work and computer simulations in Michigan and Wisconsin are helping biofuels researchers understand the basics of getting home-grown energy from the field to consumers. Preliminary results presented today suggest that incorporating native, perennial plants during biofuels production reduces emissions of greenhouse gases, improves water quality and enhances biodiversity.
Biofuels can provide viable, sustainable solution to reducing petroleum dependence
An in-depth study by Sandia National Laboratories and General Motors Corp. has found that plant and forestry waste and dedicated energy crops could sustainably replace nearly a third of gasoline use by the year 2030.
Discovering drugs, biofuels in tropical seas
The National Institutes of Health has awarded $4 million to a group of Philippine and American scientists led by Oregon Health & Science University to aid in the discovery of new molecules and biofuels technology from marine mollusks for development in the Philippines.
More research needed to make good on biofuel promise, experts say
While cellulosic biofuels derived from grasses, crop residues and inedible plant parts have real potential to be more efficient and environmentally friendly than grain-based biofuels like corn ethanol, more research and science-based policies are needed to reap these benefits, says an international group of experts.
Thinking it through: Scientists call for policy to guide biofuels industry toward sustainability
As the United States and other nations commit to the path of biofuels production, a group of scientists is calling for sustainable practices in an industry that will, as MBL scientist Jerry Mellilo says, "reshape the Earth's landscape in a significant way."
More Cellulosic Biofuels Current Events and Cellulosic Biofuels News Articles
 |
Sustainable Ethanol: Biofuels, Biorefineries, Cellulosic Biomass, Flex-fuel Vehicles, and Sustainable Farming for Energy Independence by Jeffrey Goettemoeller (Author), Adrian Goettemoeller (Author) Sustainable Ethanol goes beyond the headlines, uncovering the benefits and limitations of North America's fuel ethanol industry. Ethanol production and use are becoming more efficient and less reliant on fossil fuel inputs. Learn about the technologies making ethanol make sense for our environment, economy, and security. Discover how the end of cheap oil is providing an opening for biofuels; how some cars get better fuel economy on 10% ethanol compared to ethanol-free gasoline; how the next generation of flex-fuel and hybrid electric vehicles could be optimized to get much better fuel economy on ethanol; how North America can produce significant quantities of biofuels without damaging our food production capacity; how sustainable farming methods are reducing ethanol's reliance on... |
 |
21st Century Biomass Research Roadmap - Biofuels and Cellulosic Ethanol, Feedstocks, Sugars, Thermochemicals, Integrated Biorefineries, Energy Crops and Fuels, Corn, Oil, Pulp, Paper (Ringbound) by U.S. Government (Author) This important and up-to-date printed report provides a guide to ongoing federal research on the production of biofuels from biomass. The Department of Energy (DOE) Multi-Year Program Plan for Biomass and Biorefinery Systems research and development notes that "biomass is the only domestic, sustainable and renewable primary energy resource that can provide liquid transportation fuels and organic chemicals and materials currently produced from fossil sources. Biomass also supports a technology transition to a hydrogen economy through either gasification or the production and reforming of liquid intermediates such as ethanol, methanol, or bio-oil. The three major current and potential markets for biomass and biomass related technologies are: transportation fuels, organic chemicals and... |
 |
2008 Cellulosic Ethanol - Biomass to Biofuels, Wood Chips, Stalks, Switchgrass, Plant Products, Feedstocks, Cellulose Conversion Processes, Research Plans (CD-ROM) by U.S. Government (Author) This unique electronic book on CD-ROM has an amazing collection of federal documents and reports on converting cellulose to biofuels such as ethanol. The disc provides a complete reproduction of an important report, entitled Biofuels Joint Roadmap, June 2006, Office of Science and Office of Energy Efficiency and Renewable Energy, U.S. Department of Energy. "We'll also fund additional research in cutting-edge methods of producing ethanol, not just from corn, but from wood chips and stalks or switchgrass." - President George W. Bush, State of the Union Address, January 2006 - A robust fusion of the agricultural, industrial biotechnology, and energy industries can create a new strategic national capability for energy independence and climate protection. Fuels derived from cellulosic... |
|
Sustainable Ethanol: Biofuels, Biorefineries, Cellulosic Biomass, Flex-Fuel Vehicles, and Sustainable Farming for Energy Independence [SUSTAINABLE ETHANOL] [Paperback] by Jeffrey(Author) ; Goettemoeller, Adrian(Author) Goettemoeller (Author) | |
 |
2007 Cellulosic Ethanol - Biomass to Biofuels, Wood Chips, Stalks, Switchgrass, Plant Products, Feedstocks, Cellulose Conversion Processes, Research Plans (Ringbound) by U.S. Government (Author) This important and up-to-date printed report provides a guide to ongoing federal research on converting cellulose to biofuels such as ethanol. The report, entitled Biofuels Joint Roadmap, June 2006, Office of Science and Office of Energy Efficiency and Renewable Energy, U.S. Department of Energy, states: "We'll also fund additional research in cutting-edge methods of producing ethanol, not just from corn, but from wood chips and stalks or switchgrass." - President George W. Bush, State of the Union Address, January 2006 - A robust fusion of the agricultural, industrial biotechnology, and energy industries can create a new strategic national capability for energy independence and climate protection. Fuels derived from cellulosic biomass-the fibrous, woody, and generally inedible... |
 |
Cellulosic Ethanol - Biomass to Biofuels, Wood Chips, Stalks, Switchgrass, Plant Products, Feedstocks, Cellulose Conversion Processes, Research Plans (CD-ROM) by U.S. Government (Author) This unique electronic book on CD-ROM has an amazing collection of federal documents and reports on converting cellulose to biofuels such as ethanol. The disc provides a complete reproduction of an important report, entitled Biofuels Joint Roadmap, June 2006, Office of Science and Office of Energy Efficiency and Renewable Energy, U.S. Department of Energy. "We'll also fund additional research in cutting-edge methods of producing ethanol, not just from corn, but from wood chips and stalks or switchgrass." - President George W. Bush, State of the Union Address, January 2006 - A robust fusion of the agricultural, industrial biotechnology, and energy industries can create a new strategic national capability for energy independence and climate protection. Fuels derived from cellulosic... |
 |
21st Century Complete Guide to Cellulosic Ethanol - Biomass to Biofuels, Wood Chips, Stalks, Switchgrass, Plant Products, Feedstocks, Cellulose Conversion Processes, Research Plans (CD-ROM) by U.S. Government (Author) This unique electronic book on CD-ROM has an amazing collection of federal documents and reports on converting cellulose to biofuels such as ethanol. The disc provides a complete reproduction of an important report, entitled Biofuels Joint Roadmap, June 2006, Office of Science and Office of Energy Efficiency and Renewable Energy, U.S. Department of Energy. "We'll also fund additional research in cutting-edge methods of producing ethanol, not just from corn, but from wood chips and stalks or switchgrass." - President George W. Bush, State of the Union Address, January 2006 - A robust fusion of the agricultural, industrial biotechnology, and energy industries can create a new strategic national capability for energy independence and climate protection. Fuels derived from cellulosic... |
|
The Next Generation of Biofuels: Cellulosic Ethanol and the 2007 Farm Bill: Hearing Before the Subcommittee on Energy, Science, and Technology of the by United States (Author) | |
|
Sustainable Ethanol: Biofuels, Biorefineries, Cellulosic Biomass, Flex-fuel Vehi by Jeffrey Goettemoeller~Adrian Goettemoeller (Author) | |
 |
21st Century Ethanol, Gasohol, and Renewable Fuels Digest ¿ Fuel Ethanol, E85 Fuel, Bioethanol, Dry-Mill Production, Grain and Cellulosic Sources, Agricultural Issues, Energy Department Alternative Fuels Information, Agriculture Department on Corn Ethanol ¿ Series on Renewable Energy, Biofuels, Bioenergy, and Biobased Products by U.S. Government (Author) This is a collection of authoritative documents and publications about ethanol, including fuel ethanol, E85 ethanol, gasohol, bioethanol, dry-mill production, grain and cellulosic sources, agricultural issues, energy department alternative fuels information, agriculture department on corn ethanol, and more. CRS Report for Congress on Fuel Ethanol, Background and Public Policy Issues, Fuel Ethanol: Background and Public Policy Issues – The Summary states: "In light of a changing regulatory and legislative arena, ethanol as a motor fuel has taken on a pivotal role in bringing together often conflicting environmental and energy security interests. Ethanol is produced from biomass (mainly corn) and is mixed with gasoline to produce cleaner-burning fuel called "gasohol" or "E10." The... |
| © 2009 BrightSurf.com |